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Molecular rheotaxis directs DNA migration and concentration against a pressure-driven flow

Sarah M. Friedrich, Jeffrey M. Burke, Kelvin J. Liu, Cornelius F. Ivory () and Tza-Huei Wang ()
Additional contact information
Sarah M. Friedrich: Johns Hopkins University
Jeffrey M. Burke: Circulomics, Inc.
Kelvin J. Liu: Circulomics, Inc.
Cornelius F. Ivory: Washington State University
Tza-Huei Wang: Johns Hopkins University

Nature Communications, 2017, vol. 8, issue 1, 1-10

Abstract: Abstract In-line preconcentration techniques are used to improve the sensitivity of microfluidic DNA analysis platforms. The most common methods are electrokinetic and require an externally applied electric field. Here we describe a microfluidic DNA preconcentration technique that does not require an external field. Instead, pressure-driven flow from a fluid-filled microcapillary into a lower ionic strength DNA sample reservoir induces spontaneous DNA migration against the direction of flow. This migratory phenomenon that we call Molecular Rheotaxis initiates in seconds and results in a concentrated DNA bolus at the capillary orifice. We demonstrate the ease with which this concentration method can be integrated into a microfluidic total analysis system composed of in-line DNA preconcentration, size separation, and single-molecule detection. Paired experimental and numerical simulation results are used to delineate the parameters required to induce Molecular Rheotaxis, elucidate the underlying mechanism, and optimize conditions to achieve DNA concentration factors exceeding 10,000 fold.

Date: 2017
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DOI: 10.1038/s41467-017-01214-y

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